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Module 1: Kinematics of Particles:
Rectilinear Motion: Basic straight-line kinematics.
Projectile Motion: Analyzing 2D motion under gravity.
Polar Motion (r, θ): Kinematics using radial and transverse components.
Normal & Tangential (n-t) Motion: Analysis of path-dependent velocity and acceleration.
Examples on Kinematics: A dedicated section for solved problems covering all coordinate systems (Rectilinear, Projective, Polar, and n-t).
Module 2: Kinetics of Particles:
Equation of Motion (Rectilinear): Direct application of Newton’s Second Law to straight-line systems.
Equation of Motion (Polar & n-t): Solving kinetics problems for curved and circular paths.
Examples on Kinetics: Practical problem-solving for particles in various motion states.
Module 3: Work & Energy:
Principle of Work & Energy: Analyzing the relationship between applied forces and changes in kinetic energy.
Conservation of Energy: Using potential and kinetic energy balance for conservative systems.
Work & Energy Examples: Step-by-step solutions for complex energy-based dynamics problems.
Module 4: Dynamics of Rigid Bodies:
Plane Translation of Rigid Bodies: Analysis of solid bodies moving without rotation.
Kinematics of Angular (Rotational) Motion: Understanding how rigid bodies rotate about a fixed axis or in general plane motion.
This course includes 10 modules, 33 lessons, and 17:13 hours of materials.
Introduction to particle kinematics – Motion of a particle along a straight line – Position, distance, and displacement – Velocity and acceleration – Uniform motion – Uniformly accelerated motion – Graphical representation of motion – Motion under gravity – Simple engineering applications of rectilinear motion.
Examples on introduction to particle kinematics – Motion of a particle along a straight line – Position, distance, and displacement – Velocity and acceleration – Uniform motion – Uniformly accelerated motion – Graphical representation of motion – Motion under gravity – Simple engineering applications of rectilinear motion.
Introduction to particle kinematics – Motion of a particle along a straight line – Position, distance, and displacement – Velocity and acceleration – Uniform motion – Uniformly accelerated motion – Graphical representation of motion – Motion under gravity – Simple engineering applications of rectilinear motion.
Examples on introduction to particle kinematics – Motion of a particle along a straight line – Position, distance, and displacement – Velocity and acceleration – Uniform motion – Uniformly accelerated motion – Graphical representation of motion – Motion under gravity – Simple engineering applications of rectilinear motion.
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